displaying 181 - 190 results in total 989
Mackowski, D. W.; Altenkirch, R. A.; Menguc, M. P.
view article (1.0)Comparison of Electromagnetic Wave and Radiative Transfer Equation Analyses of a Coal Particle Surrounded by a Soot Cloud.Kentucky Univ., LexingtonCombustion and Flame, Vol. 76, No. 3-4, 415-420, June 1989Bergerson, L. D.; Carrier, G. F.; Fendell, F. E.; Hetzel, F. L.; Hus, C. T.; Kowh, D. S. W.; Stonich, I. L.
view article (1.0)Basic Research in Flame Radiation. Annual Report. August 1986-August 1987.TRW Space and Technology Group, Redondo Beach, CAGRI-88/0003Gas Research Institute, Chicago, IL, GRI-88/0003
1987
42 p.deRis, J.; Delichatsios, M. A.; Markstein, G. H.
view article (1.0)Turbulent Flow Characterization and Radiation From Gaseous Fuel Jets. Annual Report. April 30, 1985-April 30, 1986.Factory Mutual Research Corp., Norwood, MAGRI-86/0111Gas Research Institute, Chicago, IL, GRI-86/0111
April 30, 1986
69 p.Nelson, J.
view article (1.0)Fractality of Sooty Smoke: Implications for the Severity of Nuclear Winter.Bristol Univ., UKNature, Vol. 339, 611-613, June 22, 1989Dietenberger, M. A.
view article (1.0)Validated Furniture Fire Model With FAST (HEMFAST).Dayton Univ., OHNIST GCR 89-564National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 89-564
June 1989
84 p.Chippett, S.; Gray, W. A.
view article (1.0)Size and Optical Properties of Soot Particles.Leeds Univ., EnglandCombustion and Flame, Vol. 31, 149-159, 1978Modak, A. T.
view article (1.0)Radiation From Pool Fires--Analytic Solutions.Factory Mutual Research Corp., Norwood, MACombustion Institute/Eastern States Section. Chemical and Physical Processes in Combustion. Fall Meeting, 1977. November 10-11, 1977, United Technologies Research Center, CT, East Hartford, CT, IV-25 p., 1977Willis, C. H. H.
view article (1.0)Method of Identifying Fuels After a Fire or Explosion.Health and Safety Executive, Sheffield, EnglandJournal of Occupational Accidents, Vol. 13, No. 5, 217-224, 1981McCaffrey, B. J.; Harkleroad, M. F.
view article (1.0)Combustion Efficiency, Radiation, CO and Soot Yield From a Variety of Gaseous, Liquid, and Solid Fueled Buoyant Diffusion Flames.National Institute of Standards and Technology, Gaithersburg, MD; Maryland Univ., BaltimoreDepartment of the Interior, Washington, DC; Minerals Management Service, Reston, VA,Combustion Institute, Symposium (International) on Combustion, 22nd. August 14-19, 1988, Seattle, WA, 1251-1261 p., 1988Felske, J. D.; Tien, C. L.
view article (1.0)Use of the Milne-Eddington Absorption Coefficient for Radiative Heat Transfer in Combustion Systems.Massachusetts Institute of Technology, Cambridge, MA; California Univ., BerkeleyJournal of Heat Transfer, Vol. 99, No. 3, 458-465, August 1977National Science Foundation, Washington, DC,